Mitochondrial disease in flies

IF 2.7 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochimica et Biophysica Acta-Bioenergetics Pub Date : 2004-12-06 Epub Date: 2004-08-01 DOI:10.1016/j.bbabio.2004.07.004

Howard T. Jacobs , Daniel J.M. Fernández-Ayala , Shweta Manjiry , Esko Kemppainen , Janne M. Toivonen , Kevin M.C. O'Dell

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Abstract

The Drosophila mutant technical knockout (tko), affecting the mitochondrial protein synthetic apparatus, exhibits respiratory chain deficiency and a phenotype resembling various features of mitochondrial disease in humans (paralytic seizures, deafness, developmental retardation). We are using this mutant to analyse the cellular and genomic targets of mitochondrial dysfunction, and to identify ways in which the phenotype can be alleviated. Transgenic expression of wild-type tko in different patterns in the mutant background reveals critical times and cell-types for production of components of the mitochondrial disease-like phenotype. Mitochondrial bioenergy deficit during the period of maximal growth, as well as in specific parts of the nervous system, appears to be most deleterious. Inbreeding of tko mutant lines results in a systematic improvement in all phenotypic parameters tested. The resulting sub-lines can be used for genetic mapping and transcriptomic analysis, revealing clues as to the genes and pathways that can modify mitochondrial disease-like phenotypes in a model metazoan.

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果蝇线粒体疾病

果蝇突变体技术敲除（tko），影响线粒体蛋白合成装置，表现出呼吸链缺陷和与人类线粒体疾病（麻痹性癫痫、耳聋、发育迟缓）的各种特征相似的表型。我们正在使用这个突变体来分析线粒体功能障碍的细胞和基因组目标，并确定可以减轻表型的方法。在突变背景下，野生型tko以不同模式的转基因表达揭示了线粒体疾病样表型成分产生的关键时间和细胞类型。在最大生长时期线粒体生物能量不足，以及在神经系统的特定部分，似乎是最有害的。tko突变系的近交导致所有表型参数的系统改善。由此产生的子系可用于遗传作图和转录组学分析，揭示了在模型后生动物中可以改变线粒体疾病样表型的基因和途径的线索。

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来源期刊

Biochimica et Biophysica Acta-Bioenergetics 生物-生化与分子生物学

CiteScore

9.50

自引率

7.00%

发文量

363

审稿时长

92 days

期刊介绍： BBA Bioenergetics covers the area of biological membranes involved in energy transfer and conversion. In particular, it focuses on the structures obtained by X-ray crystallography and other approaches, and molecular mechanisms of the components of photosynthesis, mitochondrial and bacterial respiration, oxidative phosphorylation, motility and transport. It spans applications of structural biology, molecular modeling, spectroscopy and biophysics in these systems, through bioenergetic aspects of mitochondrial biology including biomedicine aspects of energy metabolism in mitochondrial disorders, neurodegenerative diseases like Parkinson''s and Alzheimer''s, aging, diabetes and even cancer.